Repeating for low-overhead communication in a network
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04W-088/04
H04W-084/04
H04L-001/16
H04L-025/20
H04L-012/413
H04L-025/02
출원번호
US-0085277
(2011-04-12)
등록번호
US-9326316
(2016-04-26)
발명자
/ 주소
Yonge, III, Lawrence W.
Katar, Srinivas
출원인 / 주소
QUALCOMM Incorporated
대리인 / 주소
DeLizio Law, PLLC
인용정보
피인용 횟수 :
120인용 특허 :
211
초록▼
Communicating between stations over a shared medium comprises: receiving, at a destination station, a first waveform that includes one or more segments of a payload that originated from an origin station with a sequence of multiple segments, the one or more segments included in the first waveform ha
Communicating between stations over a shared medium comprises: receiving, at a destination station, a first waveform that includes one or more segments of a payload that originated from an origin station with a sequence of multiple segments, the one or more segments included in the first waveform having been transmitted over the shared medium by the origin station and by each of one or more repeater stations, and the first waveform indicating which of the sequence of multiple segments were not correctly decoded by at least one of the repeater stations; generating, based on the first waveform, acknowledgement information that specifies which of the sequence of multiple segments have been correctly decoded by the destination station; and transmitting a second waveform from the destination station over the shared medium, the second waveform including the acknowledgement information.
대표청구항▼
1. A method for communicating between stations over a shared medium, the method comprising: receiving, at a destination station, retransmitted plurality of segments of a payload originated from an origin station, the plurality of segments having been transmitted over the shared medium by the origin
1. A method for communicating between stations over a shared medium, the method comprising: receiving, at a destination station, retransmitted plurality of segments of a payload originated from an origin station, the plurality of segments having been transmitted over the shared medium by the origin station and retransmitted by a repeater station to the destination station;receiving, at the destination station, repeater information indicating a location of a first segment of the plurality of segments that was not correctly decoded by the repeater station;generating, at the destination station, acknowledgement information that specifies which of the plurality of segments have been correctly decoded by the destination station, the acknowledgement information based, at least in part, on the repeater information; andtransmitting from the destination station over the shared medium, the acknowledgement information. 2. The method of claim 1, wherein each of the plurality of segments comprises at least one respective symbol having a respective symbol length and comprising respective frequency components, the respective frequency components having carrier frequencies that are integral multiples of a respective frequency interval. 3. The method of claim 2, wherein the respective frequency interval is determined based, at least in part, on an inverse of the respective symbol length. 4. The method of claim 1, wherein the acknowledgement information is transmitted from the destination station to the origin station using fewer repeater stations than were used to retransmit the plurality of segments to the destination station. 5. The method of claim 4, wherein a first throughput for transmitting the acknowledgement information from the destination station to the origin station is lower than a second throughput for transmitting the plurality of segments from the origin station to the destination station via the repeater station. 6. The method of claim 1, wherein the plurality of segments are retransmitted via multiple repeater stations to the destination station, wherein the multiple repeater stations include the repeater station. 7. The method of claim 6, wherein the repeater information is accumulated at each of the multiple repeater stations as the plurality of segments are retransmitted via the multiple repeater stations. 8. The method of claim 7 wherein the repeater information further indicates a location of a second segment of the plurality of segments that was not correctly decoded by at least one other repeater station of the multiple repeater stations. 9. The method of claim 6, wherein the first segment that was not correctly decoded by a first of the multiple repeater stations is transmitted to a second of the multiple repeater stations from the first of the multiple repeater stations. 10. The method of claim 1, wherein the repeater information indicating the location of the first segment of the payload that was not correctly decoded by the repeater station is included in a start of a frame delimiter. 11. The method of claim 1, wherein transmitting the acknowledgement information comprises transmitting the acknowledgement information from the destination station to the origin station without the acknowledgement information being retransmitted by the repeater station. 12. A system for communicating between stations over a shared medium, the system comprising: an origin station configured to transmit a plurality of segments of a payload;a repeater station configured to, retransmit the plurality of segments, andtransmit repeater information indicating a location of a first segment of the plurality of segments that was not correctly decoded by the repeater station; anda destination station configured to, receive the plurality of segments,receive the repeater information,generate acknowledgement information that specifies which of the plurality of segments have been correctly decoded by the destination station, the acknowledgement information based, at least in part, on the repeater information, andtransmit from the destination station over the shared medium, the acknowledgement information. 13. The system of claim 12, wherein each of the plurality of segments comprises at least one respective symbol having a respective symbol length and comprising respective frequency components, the respective frequency components having carrier frequencies that are integral multiples of a respective frequency interval. 14. The system of claim 13, wherein the respective frequency interval is determined based, at least in part, on an inverse of the respective symbol length. 15. The system of claim 12, wherein the acknowledgement information is transmitted from the destination station to the origin station using fewer repeater stations than were used to retransmit the plurality of segments from the origin station to the destination station. 16. The system of claim 15, wherein a first throughput for transmitting the acknowledgement information from the destination station to the origin station is lower than a second throughput for transmitting the plurality of segments from the origin station to the destination station via the repeater station. 17. The system of claim 12, wherein the plurality of segments are retransmitted via multiple repeater stations to the destination station, wherein the multiple repeater stations include the repeater station. 18. The system of claim 17, wherein the repeater information is accumulated at each of the multiple repeater stations as the plurality of segments are retransmitted via the multiple repeater stations. 19. The system of claim 18, wherein the repeater information further indicates a location of a second segment of the plurality of segments that was not correctly decoded by at least one other repeater station of the multiple repeater stations. 20. The system of claim 17, wherein the first segment that was not correctly decoded by a first of the multiple repeater stations is transmitted to a second of the multiple repeater stations from the first of the multiple repeater stations. 21. A destination station comprising: a receiver configured to, receive retransmitted plurality of segments of a payload originated from an origin station, the plurality of segments having been transmitted over a shared medium by the origin station and retransmitted by a repeater station,receive repeater information indicating a location of a segment of the plurality of segments that was not correctly decoded by the repeater station; anda transmitter configured to, generate acknowledgement information that specifies which of the plurality of segments have been correctly decoded by the destination station, the acknowledgement information based, at least in part, on the repeater information, andtransmit, over the shared medium, the acknowledgement information. 22. The destination station of claim 21, wherein each of the plurality of segments comprises at least one respective symbol having a respective symbol length and comprising respective frequency components, the respective frequency components having carrier frequencies that are integral multiples of a respective frequency interval. 23. The destination station of claim 22, wherein the respective frequency interval is determined based, at least in part, on an inverse of the respective symbol length. 24. The destination station of claim 21, wherein the acknowledgement information is transmitted to the origin station using fewer repeater stations than were used to retransmit the plurality of segments from the origin station to the receiver. 25. The destination station of claim 21, wherein the plurality of segments are retransmitted via multiple repeater stations to the destination station, wherein the multiple repeater stations include the repeater station. 26. The destination station of claim 25, wherein the repeater information is accumulated at each of the multiple repeater stations as the plurality of segments are retransmitted via the multiple repeater stations. 27. A non-transitory computer readable medium storing computer program code, the computer program code comprising instructions executable by a processor to: receive, at a destination station, retransmitted plurality of segments of a payload originated from an origin station, the plurality of segments having been transmitted over a shared medium by the origin station and retransmitted by a repeater station to the destination station,receive, at the destination station, repeater information indicating a location of a segment of the plurality of segments that was not correctly decoded by the repeater station;generate, at the destination station, acknowledgement information that specifies which of the plurality of segments have been correctly decoded by the destination station, the acknowledgement information based, at least in part, on the repeater information; andtransmit from the destination station over the shared medium, the acknowledgement information.
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Gross, David; Lackey, Joshua; Levy, Donald E.; Piqueras Jover, Roger; Ramachandran, Jayaraman; Serban, Cristina, Method and apparatus for authentication and identity management of communicating devices.
Gross, David; Lackey, Joshua; Levy, Donald E.; Piqueras Jover, Roger; Ramachandran, Jayaraman; Serban, Cristina, Method and apparatus for authentication and identity management of communicating devices.
Bogdan, Pamela A. M.; Blandino, George; Liu, Ken; Lubranski, Leon; Myburgh, Eric; Van Brakle, Tracy, Method and apparatus for broadcast communication via guided waves.
Gross, David; Lackey, Joshua; Levy, Donald E.; Jover, Roger Piqueras; Ramachandran, Jayaraman; Serban, Cristina, Method and apparatus for communicating network management traffic over a network.
Gross, David; Lackey, Joshua; Levy, Donald E.; Piqueras Jover, Roger; Ramachandran, Jayaraman; Serban, Cristina, Method and apparatus for communications management in a neighborhood network.
Barnickel, Donald J.; Beattie, Jr., James Gordon; Liu, Ken; Barzegar, Farhad; Gerszberg, Irwin; Bogdan, Pamela A. M.; Pimm, Brandon; Willis, III, Thomas M.; Britz, David M.; Henry, Paul Shala; Bennett, Robert; Zarsky, Dorothy, Method and apparatus for controlling an unmanned aircraft.
Adriazola, Aldo; Fuchs, Mitchell Harvey; Henry, Paul Shala; Barnickel, Donald J; Barzegar, Farhad; Bennett, Robert; Gerszberg, Irwin; Willis, III, Thomas M., Method and apparatus for coupling an antenna to a device.
Henry, Paul Shala; Barnickel, Donald J; Barzegar, Farhad; Bennett, Robert; Gerszberg, Irwin; Willis, III, Thomas M., Method and apparatus for coupling an antenna to a device.
Liu, Ken; Barzegar, Farhad; Gerszberg, Irwin; Bogdan, Pamela A. M.; Barnickel, Donald J.; Pimm, Brandon; Willis, III, Thomas M.; Britz, David M.; Henry, Paul Shala; Bennett, Robert; Zarsky, Dorothy; Beattie, Jr., James Gordon, Method and apparatus for deploying equipment of a communication system.
Gross, David; Lackey, Joshua; Levy, Donald E.; Jover, Roger Piqueras; Ramachandran, Jayaraman; Serban, Cristina, Method and apparatus for distributing software.
Gross, David; Lackey, Joshua; Levy, Donald E.; Jover, Roger Piqueras; Ramachandran, Jayaraman; Serban, Cristina, Method and apparatus for encryption of communications over a network.
Bennett, Robert; Henry, Paul Shala; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J; Willis, III, Thomas M., Method and apparatus for exchanging communication signals.
Henry, Paul Shala; Bennett, Robert; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J; Willis, III, Thomas M., Method and apparatus for exchanging communication signals.
Henry, Paul Shala; Bennett, Robert; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J; Willis, III, Thomas M., Method and apparatus for launching a wave mode that mitigates interference.
Henry, Paul Shala; Bennett, Robert; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J; Willis, III, Thomas M., Method and apparatus for launching a wave mode that mitigates interference.
Henry, Paul Shala; Bennett, Robert; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J; Willis, III, Thomas M., Method and apparatus for launching a wave mode that mitigates interference.
Fuchs, Mitchell Harvey; Bennett, Robert; Gerszberg, Irwin; Reichmann, Kenneth C., Method and apparatus for mitigating interference affecting a propagation of electromagnetic waves guided by a transmission medium.
Bennett, Robert; Henry, Paul Shala; Gerszberg, Irwin; Barzegar, Farhad; Willis, III, Thomas M.; Barnickel, Donald J., Method and apparatus for proximity sensing.
Barnickel, Donald J; Barzegar, Farhad; Bennett, Robert; Gerszberg, Irwin; Henry, Paul Shala; Willis, III, Thomas M., Method and apparatus for reducing attenuation of electromagnetic waves guided by a transmission medium.
Henry, Paul Shala; Bennett, Robert; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Method and apparatus for responding to events affecting communications in a communication network.
Liu, Ken; Bogdan, Pamela A. M.; Gerszberg, Irwin; Henry, Paul Shala; Bennett, Robert; Barzegar, Farhad; Barnickel, Donald J.; Willis, III, Thomas M., Method and apparatus for tracking via a radio frequency identification device.
Henry, Paul Shala; Bennett, Robert; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Method and apparatus for transmitting electromagnetic waves.
Henry, Paul Shala; Bennett, Robert; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Method and apparatus for transmitting or receiving signals in a transportation system.
Gerszberg, Irwin; Henry, Paul Shala; Bennett, Robert; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Method and apparatus for use with a radio distributed antenna system having a clock reference.
Gerszberg, Irwin; Henry, Paul Shala; Bennett, Robert; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Method and apparatus for use with a radio distributed antenna system having an out-of-band reference signal.
Gerszberg, Irwin; Kafka, Henry; Henry, Paul Shala; Bennett, Robert; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Method and apparatus for use with a radio distributed antenna system having an ultra-wideband control channel.
Henry, Paul Shala; Bennett, Robert; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J; Willis, III, Thomas M., Method and apparatus for wireless communications to mitigate interference.
Henry, Paul Shala; Bennett, Robert; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Method and apparatus that provides fault tolerance in a communication network.
Henry, Paul Shala; Bennett, Robert; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Method and apparatus that provides fault tolerance in a communication network.
Henry, Paul Shala; Bennett, Robert; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, Thomas M., Method and apparatus that provides fault tolerance in a communication network.
Henry, Paul Shala; Bennett, Robert; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J.; Willis, III, Thomas M., Method and repeater for broadband distribution.
Henry, Paul Shala; Willis, III, Thomas M.; Barzegar, Farhad; Bennett, Robert; Gerszberg, Irwin; Barnickel, Donald J., Methods and apparatus for adjusting an operational characteristic of an antenna.
Henry, Paul Shala; Bennett, Robert; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J; Willis, III, Thomas M., Methods and apparatus for inducing a fundamental wave mode on a transmission medium.
Henry, Paul Shala; Bennett, Robert; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J.; Willis, III, Thomas M., Methods and apparatus for inducing a non-fundamental wave mode on a transmission medium.
Henry, Paul Shala; Bennett, Robert; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J; Willis, III, Thomas M., Methods and apparatus for inducing a non-fundamental wave mode on a transmission medium.
Lubranski, Leon; Van Brakle, Tracy; Blandino, George; Gerszberg, Irwin, Methods, devices, and systems for load balancing between a plurality of waveguides.
Bennett, Robert; Henry, Paul Shala; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Network termination and methods for use therewith.
Bennett, Robert; Henry, Paul Shala; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Network termination and methods for use therewith.
Bennett, Robert; Henry, Paul Shala; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Network termination and methods for use therewith.
Henry, Paul Shala; Gerszberg, Irwin; Bennett, Robert; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Node device, repeater and methods for use therewith.
Henry, Paul Shala; Gerszberg, Irwin; Bennett, Robert; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Node device, repeater and methods for use therewith.
Henry, Paul Shala; Bennett, Robert; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Passive electrical coupling device and methods for use therewith.
Henry, Paul Shala; Bennett, Robert; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Passive electrical coupling device and methods for use therewith.
Henry, Paul Shala; Taylor, William Scott; Bennett, Robert; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J.; Willis, III, Thomas M., Plurality of cables having different cross-sectional shapes which are bundled together to form a transmission medium.
Barzegar, Farhad; Barnickel, Jr., Donald J.; Blandino, George; Gerszberg, Irwin; Henry, Paul Shala; Willis, III, Thomas M., Remote distributed antenna system.
Barzegar, Farhad; Barnickel, Jr., Donald J; Blandino, George; Gerszberg, Irwin; Henry, Paul Shala; Willis, III, Thomas M., Remote distributed antenna system.
Barzegar, Farhad; Barnickel, Jr., Donald J; Blandino, George; Gerszberg, Irwin; Henry, Paul Shala; Willis, III, Thomas M., Remote distributed antenna system.
Barzegar, Farhad; Henry, Paul Shala; Blandino, George; Gerszberg, Irwin; Barnickel, Donald J.; Willis, III, Thomas M., Remote distributed antenna system.
Bennett, Robert; Henry, Paul Shala; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Repeater and methods for use therewith.
Bennett, Robert; Henry, Paul Shala; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Repeater and methods for use therewith.
Bennett, Robert; Henry, Paul Shala; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Repeater and methods for use therewith.
Bennett, Robert; Barnickel, Donald J; Barzegar, Farhad; Gerszberg, Irwin; Henry, Paul Shala; Willis, III, Thomas M., Surface-wave communications and methods thereof.
Gerszberg, Irwin; Barzegar, Farhad; Henry, Paul Shala; Bennett, Robert; Barnickel, Donald J; Willis, III, Thomas M., System for generating topology information and methods thereof.
Barzegar, Farhad; Gerszberg, Irwin; Bennett, Robert; Henry, Paul Shala, Transmission device with impairment compensation and methods for use therewith.
Barzegar, Farhad; Gerszberg, Irwin; Bennett, Robert; Henry, Paul Shala, Transmission device with impairment compensation and methods for use therewith.
Henry, Paul Shala; Bennett, Robert; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J.; Willis, III, Thomas M., Transmission device with mode division multiplexing and methods for use therewith.
Henry, Paul Shala; Bennett, Robert; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J.; Willis, III, Thomas M., Transmission device with mode division multiplexing and methods for use therewith.
Bennett, Robert; Henry, Paul Shala; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J; Willis, III, Thomas M., Transmission medium and communication interfaces and methods for use therewith.
Bennett, Robert; Henry, Paul Shala; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J; Willis, III, Thomas M., Transmission medium and method for facilitating propagation of electromagnetic waves via a core.
Barzegar, Farhad; Barnickel, Donald J; Bennett, Robert; Gerszberg, Irwin; Henry, Paul Shala; Willis, III, Thomas M., Transmission medium and methods for use therewith.
Henry, Paul Shala; Taylor, William Scott; Bennett, Robert; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J; Willis, III, Thomas M., Transmission medium having a dielectric core comprised of plural members connected by a ball and socket configuration.
Henry, Paul Shala; Taylor, William Scott; Bennett, Robert; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J; Willis, III, Thomas M., Transmission medium having multiple cores and methods for use therewith.
Henry, Paul Shala; Bennett, Robert; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J.; Willis, III, Thomas M.; Guntin, Ed, Waveguide system for slot radiating first electromagnetic waves that are combined into a non-fundamental wave mode second electromagnetic wave on a transmission medium.
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